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Kristine Krafts, M.D.

Neoplasia III (Epidemiology) and IV (Cancer Pathogenesis). Kristine Krafts, M.D. Neoplasia Outline. Tumor nomenclature Tumor characteristics Epidemiology. Cancer Incidence. Every year: 1.5 million new cases of cancer, >500,000 cancer deaths

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Kristine Krafts, M.D.

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  1. Neoplasia III (Epidemiology) and IV (Cancer Pathogenesis) Kristine Krafts, M.D.

  2. Neoplasia Outline • Tumor nomenclature • Tumor characteristics • Epidemiology

  3. Cancer Incidence • Every year: 1.5 million new cases of cancer, >500,000 cancer deaths • Cancer is 2nd leading cause of death (after heart disease) • Most common cancers • Men: Prostate • Women: Breast • Deadliest cancers • Men: Lung • Women: Lung

  4. Environmental Carcinogens • Sunlight: skin cancer • Smoking: lung cancer • Alcohol: liver, breast cancers • HPV: cervical carcinoma

  5. Three Types of Hereditary Cancer • Familial cancers • Inherited cancer syndromes • Syndromes of defective DNA repair

  6. Familial Cancers • Most cases of cancer are “sporadic” (random) • A small number are “familial” (related to particular germline gene mutations) • Example: certain BRCA1 gene mutations increase risk of breast, colon, ovary, and pancreatic cancers • Familial cancers occur earlier and are more aggressive than their sporadic counterparts

  7. Inherited Cancer Syndromes • Usually autosomal dominant • Each has a specific gene mutation that increases risk of getting multiple cancers • Example: Li-Fraumeni syndrome • mutation in p53 gene • 25x increased risk of getting sarcomas, breast cancer, leukemia, and brain tumors, usually before age 50

  8. Syndromes of Defective DNA Repair • Inherited mutations in genes encoding DNA repair systems • Greatly enhance the occurrence of mutations in other genes (“genomic instability”) • Example: xeroderma pigmentosum • mutations in genes in “nucleotide excision repair” pathway (fixes UV-damaged DNA • Extreme sensitivity to sun; markedly increased risk of skin cancer (in childhood!)

  9. Neoplasia Outline • Tumor nomenclature • Tumor characteristics • Epidemiology • Cancer pathogenesis

  10. What causes cancer?

  11. What causes cancer? Non-lethal genetic damage.

  12. Hallmarks of Cancer Evasion ofimmune detection Autonomous cell proliferation Resistance to growth-suppressing signals Alteredmetabolism Ability to invadeand metastasize Evasion ofapoptosis Angiogenesis Immortality

  13. Hallmarks of Cancer Autonomous cell proliferation

  14. Autonomous Cell Growth • Proto-oncogene: a normal gene whose product promotes cell growth. • Oncogene: a mutated proto-oncogene. Causes tumor cell to grow autonomously. • Oncoprotein: the product of an oncogene.

  15. The RAS Gene • RAS is a signal transduction protein • Mutated RAS is always on… • …therefore, always transducing signals… • …therefore, cell is always dividing.

  16. Hallmarks of Cancer Autonomous cell proliferation Resistance to growth-suppressing signals

  17. Resistance to Growth-Suppressing Signals • Tumor suppressor gene: a normal gene whose product suppresses the cell cycle (like brakes on a car). • Mutate these guys, and you lose the brakes! • Must mutate both copies of the gene to cause tumors.

  18. The Retinoblastoma (RB) Gene • RB gene product stops cell at G1 checkpoint • Mutant RB is inactive; lets cells pass through G1! • Patients with two mutated RB genes have way, way high risk of retinoblastoma (and an increased risk of getting other tumors).

  19. The Cell Cycle

  20. Retinoblastoma

  21. Hallmarks of Cancer Autonomous cell proliferation Resistance to growth-suppressing signals Evasion ofapoptosis

  22. Evasion of Apoptosis • Many proteins are involved in apoptosis: • p53 • Fas (the “death receptor”) • Executioner caspases • BCL2 protein family • If genes for these proteins are mutated, the cell will be able to avoid killing itself.

  23. The p53 Gene • Nickname for p53: “guardian of the genome” • If a cell’s DNA is damaged, p53 causes a pause in the cell cycle (via RB), so DNA can be repaired. • If DNA damage is irreparable, p53 causes the cell to undergo apoptosis. • Most human tumors have p53 mutations!

  24. p53 activated p53 not activated no cell cycle arrest, no DNA repair cell cycle arrest

  25. Hallmarks of Cancer Autonomous cell proliferation Resistance to growth-suppressing signals Evasion ofapoptosis Immortality

  26. Immortality • Normal cells can only undergo 60-70 doublings • Main reason: telomere shortening! • Stem cells and cancer cells use telomerase to maintain telomere length and keep replicating.

  27. Telomeres As cells divide over time...

  28. Hallmarks of Cancer Autonomous cell proliferation Resistance to growth-suppressing signals Evasion ofapoptosis Angiogenesis Immortality

  29. Angiogenesis • Tumor cells need blood too! • Can’t grow >1-2 cm without new vessels • Tumor cells eventually learn how to stimulate angiogenesis • Lots of cytokines involved (i.e., VEGF)

  30. Tumor cells surrounding new vessel

  31. Hallmarks of Cancer Autonomous cell proliferation Resistance to growth-suppressing signals Ability to invadeand metastasize Evasion ofapoptosis Angiogenesis Immortality

  32. Ability to Invade and Metastasize • To do this, tumor cells must: • Loosen contacts between cells • Degrade extracellular matrix • Migrate away from the original site • Some tumors lodge in nearest capillary bed • Some tumors show tropism

  33. clonal growth metastatic subclone intravasation tumor cell embolus extravasation

  34. Tumor cells surrounding and invading vessel

  35. Tumor cells now within vessel

  36. Hallmarks of Cancer Evasion ofimmune detection Autonomous cell proliferation Resistance to growth-suppressing signals Alteredmetabolism Ability to invadeand metastasize Evasion ofapoptosis Angiogenesis Immortality

  37. Hallmarks of Cancer Evasion ofimmune detection Autonomous cell proliferation Resistance to growth-suppressing signals Alteredmetabolism Ability to invadeand metastasize Evasion ofapoptosis Angiogenesis Immortality

  38. Grading and Staging • Used for malignant tumors • Useful for determining treatment and prognosis • Grading • Tells you how nasty the tumor looks (use microscope) • Somewhat useful • Staging • Tells you how far the tumor has spread (use imaging) • Very useful

  39. Grading system for breast cancer Tubules lots of tubules some tubules rare tubules Pleomorphism small, uniform cells larger, less uniform cells markedly pleomorphic cells Mitoses 0-9 mitoses/10 hpf 10-19 mitoses/10 hpf ≥20 mitoses/10 hpf 1 2 3 1 2 3 1 2 3 add all points together Grade Score 5y survival Low grade Intermediate grade High grade 3-5 6-7 8-9 >95% 80% 60%

  40. Low grade breast cancer

  41. High grade breast cancer

  42. TNM staging system for non-small cell lung cancer T=Tumor Tis – in situ tumor T1 – small tumor T2 – larger tumor T3 – larger or invasive tumor T4 – very large/very invasive N=Nodes N0 – no lymph node involvement N1 – a few regional nodes N2 – lots of regional nodes N3 – distant nodes M=Metastases M0 – no metastases M1 – metastases

  43. TNM staging system for non-small cell lung cancer Overall stage Stage 0 Stage I Stage II Stage III Stage IV T Tis T1 or T2 T1 T2 T3 T1 or T2 T3 Any T T4 Any T N N0 N0 N1 N1 N0 N2 N1 or N2 N3 Any N Any N M M0 M0 M0 M0 M0 M0 M0 M0 M0 M1 Treatment Surgery only Surgery ± radiation Surgery and radiation ± chemotherapy Chemotherapy ± radiation to debulk Maybe surgery Palliative care Maybe chemo or radiation 5y prognosis 75% 50% 30% 10% <2%

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